using System;
using L=Science.Physics.GeneralPhysics;

namespace Serway.Chapter41
{
	/// <summary>
	/// Example04: Model of an Atom
	/// An atom can be viewed as several electrons moving around 
	/// a positively charged nucleus, where the electrons are 
	/// subject mainly to the electrical attraction of the nucleus. 
	/// (This attraction is partially "screened" by the inner-core 
	/// electrons and is therefore diminished.) Figure 41.6 
	/// represents the potential energy of an atom as a function 
	/// of r, the distance between the electron and the nucleus. 
	/// (A)	
	/// Use the simple model of a particle in a box to estimate the 
	/// energy (in electron volts) required to raise an atom 
	/// from the state n = 1 to the state n = 2, assuming that 
	/// the atom has a radius of 0.100 nm and that the moving electron 
	/// carries the energy that has been added to the atom.
	/// (B)
	/// Atoms may be excited to higher energy states by absorbing
	/// incoming radiation. Calculate the wavelength of the photon
	/// that would cause the transition from the n = 1 state to the
	/// n = 2 state.
	/// </summary>
	public class Example04
	{
		public Example04()
		{
		}
		private string result;
		public string Result
		{
			get{return result;}
		}
		public void Compute()
		{
			result = "Read the book!";
		}
	}
}
